A time-of-flight-based hand posture database for human-machine interaction

2016 14th International Conference on Control, Automation, Robotics and Vision (ICARCV) Pub Date : 2016-11-01 DOI:10.1109/ICARCV.2016.7838613

Thomas Kopinski, A. Gepperth, U. Handmann

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引用次数: 7

Abstract

We present a publicly available benchmark database for the problem of hand posture recognition from noisy depth data and fused RGB-D data obtained from low-cost time-of-flight (ToF) sensors. The database is the most extensive database of this kind containing over a million data samples (point clouds) recorded from 35 different individuals for ten different static hand postures. This captures a great amount of variance, due to person-related factors, but also scaling, translation and rotation are explicitly represented. Benchmark results achieved with a standard classification algorithm are computed by cross-validation both over samples and persons, the latter implying training on all persons but one and testing on the remaining one. An important result using this database is that cross-validation performance over samples (which is the standard procedure in machine learning) is systematically higher than cross-validation performance over persons, which is to our mind the true application-relevant measure of generalization performance.

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基于飞行时间的人机交互手势数据库

我们提出了一个公开可用的基准数据库，用于从噪声深度数据和从低成本飞行时间(ToF)传感器获得的融合RGB-D数据中识别手部姿势问题。该数据库是此类数据库中最广泛的，包含超过一百万个数据样本(点云)，记录了35个不同个体的10种不同的静态手部姿势。由于与人相关的因素，这捕获了大量的差异，但也明确表示缩放，平移和旋转。使用标准分类算法获得的基准结果是通过对样本和人员进行交叉验证来计算的，后者意味着对除一人以外的所有人进行训练，并对其余一人进行测试。使用该数据库的一个重要结果是，对样本的交叉验证性能(这是机器学习中的标准程序)系统地高于对人的交叉验证性能，在我们看来，这是真正与应用相关的泛化性能度量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2016 14th International Conference on Control, Automation, Robotics and Vision (ICARCV)

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